Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0011849 (diabetes)
277,896 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The isolated perfused rat lung was used as a model to study the possible hormonal regulation of lipid metabolism in the mammalian adult lung. Experimental diabetes, whether induced by alloxan or streptozotocin, decreased the incorporation of [U-14C]glucose into neutral lipids and phospholipids of both the surfactant fraction and the residual fraction of the lung by 60-80%. Glucose incorporation into phosphatidylcholine and phosphatidylglycerol is decreased in experimental diabetes in both the surfactant and residual fractions to a comparable degree. Glucose incorporation is decreased in both the fatty acid and the glycerophosphocholine moieties of phosphatidylcholine isolated from the surfactant and residual fractions. Insulin treatment of normal animals 30 or 15 min prior to perfusion resulted in an approximate doubling of the incorporation of glucose into the phosphatidylcholine and phosphatidylglycerol isolated from the surfactant and residual fractions of the lung. The incorporation of glucose into palmitic acid isolated from phosphatidylcholine was also shown to increase similarly. The results of these investigations indicate that insulin may play a role in regulating the synthesis of the important lipid components of the mammalian pulmonary surfactant complex.
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PMID:Effect of experimental diabetes and insulin on lipid metabolism in the isolated perfused rat lung. 14 18

Turnover rates of glucose and free fatty acids were measured, using 3H-glucose and 14C-l-palmitic acid as tracers, in insulin-requiring diabetic patients at presentation and after insulin treatment. Correlations were sought with rates of substrate oxidation, determined independently from respiratory exchange, and with plasma hormone concentrations. The rates of appearance of glucose and of free fatty acids were increased in the diabetics to 17.6 and 10.2 micronmol min-1 kg-1 respectively. Both rates fell to normal (13.3 and 7.1 micronmol min-1 kg-1) after insulin. In the untreated state there was an inverse relationship between the rates of utilisation of glucose and free fatty acids (r = 0.61; p less than 0.05). It is suggested that this relationship represents the impairment of peripheral glucose utilisation by free fatty acids and by ketone bodies in vivo, so far only demonstrated in vitro. The tracer calculated rates of glucose utilisation correlated well over a wide range with the respiratory quotient in untreated diabetics, while respiratory quotient was inversely related to free fatty acid turnover rates. In untreated diabetics plasma cortisol and 3,3', 5'-triiodothyronine (rT3) were increased whereas thyroxine and 3,5,3'-triiodothyronine (T3) were decreased. 3,5,3'-Triiodothyronine concentration was closely related to the metabolic clearance rate of glucose (p less than 0.05), while cortisol concentrations correlated with glucose production (p less than 0.02) and blood ketone body concentration (p less than 0.02). It is concluded that glucose overproduction is the major contributor to the hyperglycaemia of untreated diabetes.
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PMID:Glucose and free fatty acid turnover in normal subjects and in diabetic patients before and after insulin treatment. 45 73

The lecithin/sphingomyelin (L/S) ratio, palmitic acid concentration and palmitic to stearic acid (P/S) ratio were estimated on samples of amniotic fluid obtained from 66 patients with diabetes. These were compared with similar estimates on amniotic fluid obtained from 127 non-diabetic patients. At 35 to 40 weeks, significant differences were observed between the L/S ratio and palmitic acid concentration in diabetics and non-diabetics, whereas the P/S ratio was similar in the two groups. The amniotic fluid L/S ratio, palmitic acid concentration, and P/S ratio were estimated on amniotic fluid obtained from 20 diabetic patients within 48 hours of induction, and the clinical outcome of the newborn infant was used to assess the predictive value of the three parameters. In 19 out of 20 diabetics the P/S ratio correctly predicted fetal lung maturity, whereas the palmitic acid concentration was correct in 12 patients and the L/S ratio in only 10 patients.
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PMID:Amniotic fluid palmitic acid/stearic acid ratios. Lecithin/sphingomyelin ratios and palmitic acid concentrations in the assessment of fetal lung maturity in diabetic pregnancies. 52 54

The fatty acid composition of total lipid and phospholipid contents was determined in the amniotic fluid of normal and diabetic pregnant patients. Disturbance of lipid metabolism which is not related to the severity of diabetes, causes difficulties in the determination of L/S ratio. The palmitic acid content of total lipid and lecithin is increased in diabetic pregnancy. The lecithin synthesis is significantly decreased as result of a transitory or prolonged acidosis.
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PMID:Palmitic acid concentration of amniotic fluid in diabetic pregnancy. 57

A method for rapid determination of total esterified palmitic acid concentration (TEPAC) in amniotic fluid is described. The correlation coefficient between the TEPAC and the lecithin concentration was 0.93 in 123 samples of amniotic fluid obtained during the last trimester. The respiratory distress syndrome (RDS) occurred in 73% of the cases studied with TEPAC less than mmol/l in predelivery samples. The RDS was not observed with higher concentrations except in cases of maternal diabetes mellitus. The predictive value of total esterified fatty acid studies was confirmed to the concentration of palmitic acid recorded, and no specific fatty acid distributions or ratios were reliable in identifying RDS or estimating gestational age.
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PMID:Amniotic fluid palmitic acid concentrations and prediction of fetal lung maturity. 101 81

Previous assays for nonenzymatic advanced glycosylation end products (AGEs) formed in tissues and/or circulating in blood are unsatisfactory. Based on our earlier identification of AGE-specific receptors on the macrophagelike tumor cell line RAW 264.7, a new assay system for AGEs has been devised. RAW 264.7 cells were used in competitive radioreceptor assays (RRA) after a 3-day culture in 96-well plates with 1 mu CI/ml [3H]glycine. Bovine serum albumin (BSA), modified extensively by incubation with glucose-6-phosphate in vitro to form AGE-BSA, was labeled with 125I and was used as a model ligand at a concn of 10 micrograms/ml. One unit of AGE was defined as the amount of test protein required to inhibit 50% of the specific binding of [125I]-labeled AGE-BSA to the AGE-receptors of intact RAW 264.7 cells. Nonlabeled AGE-BSA was used as a specific competitor to construct standard curves. The reproducibility of the assay was assessed at AGE levels equivalent to mean, maximum, and minimum levels of sensitivity for assays run on a single day and over an extended period, and the RRA had a reproducibility (coefficient of variation) between 5.9 and 14.7%. Protease hydrolysis of in vitro glycosylated proteins before assay increases the competitive ability of these proteins in proportion to their glycosylation. Little or no AGE cross-reactivity was detected in native BSA, Amadori-BSA, maleylated BSA, formaldehyde-treated BSA, palmitic acid-BSA, and acetylated low-density lipoproteins (acetyl-LDL). Polyanions such as heparin or fucoidan strongly interfere with this receptor binding assay.(ABSTRACT TRUNCATED AT 250 WORDS)
Diabetes 1991 Dec
PMID:Radioreceptor assay for advanced glycosylation end products. 166 95

Altered transfer of nutrients from mother to conceptus may be involved in the pathogenesis of the developmental disturbances in offspring of diabetic mothers. In our study, the embryonic uptake of a saturated (palmitic acid) and a nonsaturated (arachidonic acid) fatty acid was evaluated in a normal and a diabetes-like environment under in vivo and in vitro conditions that yield growth retardation and somatic malformations in the embryos. The palmitic acid uptake in embryos from diabetic rats and in embryos cultured in vitro in 30 mmol/L D-glucose did not differ from the respective controls. Only embryos cultured in the highest D-glucose concentration (60 mmol/L) showed slightly increased uptake, which suggests that alterations in palmitic acid transfer have no role in the processes of embryonic maldevelopment in diabetic pregnancy. In contrast, the results showed that a diabetes-like environment both in vivo and in vitro causes increased embryonic uptake of arachidonic acid. Consequently, if the teratogenic mechanisms of diabetic pregnancy involve decreased embryonic levels of arachidonic acid, as has been suggested, this would not be the effect of a decreased uptake per se, but rather of an altered intracellular metabolism or decreased extracellular availability of this fatty acid.
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PMID:Effects of maternal diabetes or in vitro hyperglycemia on uptake of palmitic and arachidonic acid by rat embryos. 191 Jan 60

The fatty acid composition of serum cholesterol esters was investigated in 325 subjects with normal glucose tolerance, 97 subjects with impaired glucose tolerance (IGT), and 98 subjects with non-insulin-dependent diabetes mellitus (NIDDM) identified by population-based screening. The proportions of palmitic acid (16:0) and palmitoleic acid (16:1) in serum cholesterol esters increased from the normal glucose tolerance group to the IGT and diabetic groups. On the other hand, the proportion of linoleic acid (18:2) was lower in diabetic subjects than in the subjects with IGT or normal glucose tolerance. The proportions of gamma-linolenic (18:3), dihomo-gamma-linoleic (20:3), and arachidonic (20:4) acids were highest in diabetic subjects and lowest in subjects with normal glucose tolerance. Our findings suggest that subjects with NIDDM or IGT have had higher dietary intake of saturated fatty acids. Both serum insulin and blood glucose concentrations probably have an effect on the elongation and desaturation of fatty acids, but the metabolism of linoleic acid to prostaglandin precursors seems to be different in different types of diabetes, NIDDM patients showing no abnormalities. The possibility that the fatty acid composition of plasma and membrane lipids has a role in insulin resistance and blood glucose regulation deserves further investigation.
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PMID:Fatty acid composition of serum cholesterol esters in different degrees of glucose intolerance: a population-based study. 224 69

In situ perfusion of the fetal side of the placenta of five normal and eight diabetic anaesthetized rabbits was performed. The does were infused with a mixture of 14C palmitic acid and 3H glucose whilst simultaneous maternal blood and placental perfusate samples were taken for 90 min. Radiolabelled palmitate and glucose levels in the perfusate closely followed levels in the maternal plasma in both normal and diabetic animals. Total placental non-esterified fatty acid transfer was 0.96 mumol/min in the diabetic animals, although due to the considerable variation within the groups this was not statistically significantly more than the 0.58 mumol/min transferred in the normal rabbits. This transfer was significantly affected by maternal uteroplacental blood flow. Total placental glucose transfer was significantly raised in the diabetic (5.0 mumols/min) compared with the normal (1.8 mumols/min) animals, reflecting maternal hyperglycaemia in the diabetic rabbits. Placental glucose transfer was also significantly correlated with maternal uteroplacental blood flow. Maternal diabetes thus increases the placental flux of nutrients to the fetus in the rabbit.
Diabetes Res 1989 Jun
PMID:The effect of alloxan induced diabetes in the rabbit on placental transfer of glucose and non-esterified fatty acids. 262 Apr 85

Previously, a small implant of compressed insulin in palmitic acid provided a basal dose to reduce hyperglycaemia for 42 +/- 12 d in rats with induced diabetes. This study describes a silicone implant that can be used for preprandial dose supplements. The device consists of two compartments assembled by attaching a 9 mm diameter foam ring to a 6 mm diameter ring of the same material. The assembly is then enclosed between two membranes, and an annular external wall. Before sealing, a 6 mg piece of compressed insulin (Zn) is inserted into the smaller ring with 2 mg tetracycline to hinder microbial growth. The top membrane is pierced once with an 18 gauge needle, and the device is tested by implanting under the abdominal skin of diabetic rats. Serous fluid soon enters to fill the 141 microliter internal volume through the orifice and dissolves some of the insulin which does not leak out. Sidewise compression weekly over the skin fold of the unanesthetized animal shows that the insulin remained potent until used up after 154 d. When compressed daily, the insulin supply lasted for 24 +/- 4 d and maintained the blood glucose consistently at 3.4 +/- 1.1 mM/l for 6-8 h each day. The dependable device is refillable percutaneously by injection of an insulin suspension.
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PMID:Implantable reservoir for supplemental insulin delivery on demand by external compression. 265 24


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